Articles citing this paper
Arsenic Uptake by Barley Seedlings
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6(4) pp.459 - 466
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Accumulation of arsenic and heavy metals in someViolaspecies from an abandoned mine, Alchar, Republic of Macedonia (FYROM)
Stevanović B.,
Dražić G.,
Tomović G.,
Šinžar‐Sekulić J.,
Melovski Lj.,
Novović I., Marković D. M.
Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology. 2010 144(3). p.644
Role of Fe plaque on arsenic biotransformation by marine macroalgae
Hasegawa Hiroshi,
Akhyar Okviyoandra,
Omori Yoshiki,
Kato Yusuke,
Kosugi Chika,
Miki Osamu,
Mashio Asami Suzuki, Papry Rimana Islam
Science of The Total Environment. 2022 802 p.149776
Rhizosphere characteristics of two arsenic hyperaccumulating Pteris ferns
Gonzaga Maria Isidória Silva,
Ma Lena Qying,
Santos Jorge Antônio Gonzaga, Matias Maria Iraildes Silva
Science of The Total Environment. 2009 407(16). p.4711
Arsenic hazards: strategies for tolerance and remediation by plants
Tripathi Rudra D.,
Srivastava Sudhakar,
Mishra Seema,
Singh Nandita,
Tuli Rakesh,
Gupta Dharmendra K., Maathuis Frans J.M.
Trends in Biotechnology. 2007 25(4). p.158
Arsenate tolerance mechanism of Oenothera odorata from a mine population involves the induction of phytochelatins in roots
Kim Dae-Yeon,
Park Hyun,
Lee Sang-Hwan,
Koo Namin, Kim Jeong-Gyu
Chemosphere. 2009 75(4). p.505
Phytofiltration of arsenic and cadmium by using an aquatic plant, Micranthemum umbrosum: Phytotoxicity, uptake kinetics, and mechanism
Islam Md. Shariful,
Saito Takeshi, Kurasaki Masaaki
Ecotoxicology and Environmental Safety. 2015 112 p.193
Phosphate-arsenate relations to affect arsenic concentration in plant tissues, growth, and antioxidant efficiency of sunflower (Helianthus annuus L.) under arsenic stress
Azeem Waqas,
Ashraf Muhammad,
Shahzad Sher Muhammad,
Imtiaz Muhammad,
Akhtar Mumtaz, Rizwan Muhammad Shahid
Environmental Science and Pollution Research. 2017 24(31). p.24376
Effect of arsenic on phytosiderophores and mineral nutrition of barley seedlings grown in iron-depleted medium
Shaibur Molla Rahman,
Kitajima Nobuyuki,
Sugawara Reiko,
Kondo Toshihito,
Huq S. M. Imamul, Kawai Shigenao
Soil Science and Plant Nutrition. 2009 55(2). p.283
Effects of phosphate on arsenate and arsenite sensitivity in two rice (Oryza sativa L.) cultivars of different sensitivity
Lou-Hing Daniel,
Zhang Bo,
Price Adam H., Meharg Andy A.
Environmental and Experimental Botany. 2011 72(1). p.47
Association of arsenic with nutrient elements in rice plants
Duan Guilan,
Liu Wenju,
Chen Xueping,
Hu Ying, Zhu Yongguan
Metallomics. 2013 5(7). p.784
Arbuscular Mycorrhizal Fungi and Arsenate Uptake byBrachiariaGrass (Brachiaria decumbens)
Gomes Marcelo Pedrosa,
Moura Priscila Aparecida Silva,
Nascentes Clésia Cristina, Scotti Maria Rita
Bioremediation Journal. 2015 19(2). p.151
Arabidopsis thaliana NIP7;1 is involved in tissue arsenic distribution and tolerance in response to arsenate
Lindsay Emma R., Maathuis Frans J. M.
FEBS Letters. 2016 590(6). p.779
Arsenic Accumulation and Tolerance of Cytisus scoparius Under Controlled Conditions
Manzano Rebeca,
Peñalosa Jesús M., Esteban Elvira
Water, Air, & Soil Pollution. 2013 224(1).
Interactive effects of pH, arsenic and phosphorus on uptake of As and P and growth of the arsenic hyperaccumulator Pteris vittata L. under hydroponic conditions
Tu S, Ma L.Q
Environmental and Experimental Botany. 2003 50(3). p.243
Effect of Heavy Metal Pollution on Plants (1981)
Mechanisms of Arsenic Toxicity and Tolerance in Plants (2018)
Iron plaque formation, characteristics, and its role as a barrier and/or facilitator to heavy metal uptake in hydrophyte rice (Oryza sativa L.)
Zandi Peiman,
Yang Jianjun,
Darma Aminu,
Bloem Elke,
Xia Xing,
Wang Yaosheng,
Li Qian, Schnug Ewald
Environmental Geochemistry and Health. 2023 45(3). p.525
Ecological responses to environmental stresses (1991)
Metal and Nutrient Transporters in Abiotic Stress (2021)
Arsenic biotransformation potential of marine phytoplankton under a salinity gradient
Papry Rimana Islam,
Omori Yoshiki,
Fujisawa Shogo,
Al Mamun M. Abdullah,
Miah Sohag,
Mashio Asami S.,
Maki Teruya, Hasegawa Hiroshi
Algal Research. 2020 47 p.101842
Arsenic behavior in soil-plant system and its detoxification mechanisms in plants: A review
Khan Imran,
Awan Samrah Afzal,
Rizwan Muhammad,
Ali Shafaqat,
Zhang Xinquan, Huang Linkai
Environmental Pollution. 2021 286 p.117389
Arsenic & Rice (2012)
Belowground Defence Strategies in Plants (2016)
Arsenic metabolism in technical biogas plants: possible consequences for resident microbiota and downstream units
Weithmann Nicolas,
Mlinar Stanislava,
Hilbrig Frank,
Bachmaf Samer,
Arndt Julia,
Planer-Friedrich Britta,
Weig Alfons R., Freitag Ruth
AMB Express. 2019 9(1).
Bioaccumulation of some trace elements in tropical mangrove plants and snails (Can Gio, Vietnam)
Thanh-Nho Nguyen,
Marchand Cyril,
Strady Emilie,
Huu-Phat Nguyen, Nhu-Trang Tran-Thi
Environmental Pollution. 2019 248 p.635
Phytochelatin and coumarin enrichment in root exudates of arsenic‐treated white lupin
Frémont Adrien,
Sas Eszter,
Sarrazin Mathieu,
Gonzalez Emmanuel,
Brisson Jacques,
Pitre Frédéric Emmanuel, Brereton Nicholas James Beresford
Plant, Cell & Environment. 2022 45(3). p.936
Arsenic in Soil and Groundwater Environment - Biogeochemical Interactions, Health Effects and Remediation (2007)
Evaluation of soil characteristics potentially affecting arsenic concentration in paddy rice (Oryza sativa L.)
Bogdan Katja, Schenk Manfred K.
Environmental Pollution. 2009 157(10). p.2617
Heavy metal pollution in vegetables grown in the vicinity of a multi-metal mining area in Gejiu, China: total concentrations, speciation analysis, and health risk
Li Yanyan,
Wang Hongbin,
Wang Haijuan,
Yin Fei,
Yang Xiaoyan, Hu Yongjun
Environmental Science and Pollution Research. 2014 21(21). p.12569
Ability of Periplasmic Phosphate Binding Proteins from Synechocystis sp. PCC 6803 to Discriminate Phosphate Against Arsenate
Yan Yu,
Ding Kai,
Yu Xin-Wei,
Ye Jun, Xue Xi-Mei
Water, Air, & Soil Pollution. 2017 228(4).
Variation in arsenic, lead and zinc tolerance and accumulation in six populations of Pteris vittata L. from China
Wu F.Y.,
Leung H.M.,
Wu S.C.,
Ye Z.H., Wong M.H.
Environmental Pollution. 2009 157(8-9). p.2394
Exposure characteristics of antimony and coexisting arsenic from multi-path exposure in typical antimony mine area
Guo Wenjing,
Zhang Zhiyong,
Wang Hao,
Qin Hongjie, Fu Zhiyou
Journal of Environmental Management. 2021 289 p.112493
Can arbuscular mycorrhizal fungi improve grain yield, As uptake and tolerance of rice grown under aerobic conditions?
Li H.,
Ye Z.H.,
Chan W.F.,
Chen X.W.,
Wu F.Y.,
Wu S.C., Wong M.H.
Environmental Pollution. 2011 159(10). p.2537
Modelling arsenic toxicity in wheat: Simultaneous application of diffusive gradients in thin films to arsenic and phosphorus in soil
Mojsilovic Ognjen,
McLaren Ron G., Condron Leo M.
Environmental Pollution. 2011 159(10). p.2996
Effects of Light Regime, Temperature, and Plant Age on Uptake of Arsenic bySpartina PectinataandCarex Stricta
Rofkar Jordan R., Dwyer Daryl F.
International Journal of Phytoremediation. 2011 13(6). p.528
No evidence for competition between arsenate and phosphate for uptake from soil by medic or barley
Christophersen H.M.,
Smith S.E.,
Pope S., Smith F.A.
Environment International. 2009 35(3). p.485
Potential health risks of arsenic, antimony and mercury in the Takab geothermal field, NW Iran
Sharifi Reza,
Moore Farid, Keshavarzi Behnam
International Journal of Environmental Studies. 2014 p.1
Uptake, translocation and transformation of antimony in rice (Oryza sativa L.) seedlings
Cai Fei,
Ren Jinghua,
Tao Shu, Wang Xilong
Environmental Pollution. 2016 209 p.169
Physiological and Mineralogical Properties of Arsenic-Induced Chlorosis in Barley Seedlings Grown Hydroponically
Shaibur Molla Rahman,
Kitajima Nobuyuki,
Sugawara Reiko,
Kondo Toshihito,
Imamul Huq S. M., Kawai Shigenao
Journal of Plant Nutrition. 2008 31(2). p.333
The arbuscular mycorrhizal fungus Glomus mosseae can enhance arsenic tolerance in Medicago truncatula by increasing plant phosphorus status and restricting arsenate uptake
Xu Pengliang,
Christie Peter,
Liu Yu,
Zhang Junling, Li Xiaolin
Environmental Pollution. 2008 156(1). p.215
Uptake of Arsenic by Maize Inoculated with Three Different Arbuscular Mycorrhizal Fungi
Yu Yang,
Zhang Shuzhen,
Huang Honglin, Wu Naiying
Communications in Soil Science and Plant Analysis. 2010 41(6). p.735
Uptake kinetics of different arsenic species in lowland and upland rice colonized with Glomus intraradices
Li H.,
Wu C.,
Ye Z.H.,
Wu S.C.,
Wu F.Y., Wong M.H.
Journal of Hazardous Materials. 2011 194 p.414
Phosphate and arsenate interactions in the rhizosphere of canola (Brassica napus)
Quaghebeur Mieke, Rengel Zed
Functional Plant Biology. 2004 31(11). p.1085
Limiting external concentrations of trace elements for plant growth: Use of flowing solution culture techniques
Asher Colin J.
Journal of Plant Nutrition. 1981 3(1-4). p.163
Trace metal phytotoxicity in solution culture: a review
Kopittke Peter M.,
Blamey F. Pax C.,
Asher Colin J., Menzies Neal W.
Journal of Experimental Botany. 2010 61(4). p.945
Phytoremediation of Arsenic-Contaminated Groundwater by the Arsenic Hyperaccumulating FernPteris vittataL.
Tu S.,
Ma Lena Q.,
Fayiga Abioye O., Zillioux Edward J.
International Journal of Phytoremediation. 2004 6(1). p.35
Analysis of sublethal arsenic toxicity toCeratophyllum demersum: subcellular distribution of arsenic and inhibition of chlorophyll biosynthesis
Mishra Seema,
Alfeld Matthias,
Sobotka Roman,
Andresen Elisa,
Falkenberg Gerald, Küpper Hendrik
Journal of Experimental Botany. 2016 67(15). p.4639
Characterization of Arsenate Reductase in the Extract of Roots and Fronds of Chinese Brake Fern, an Arsenic Hyperaccumulator
Duan Gui-Lan,
Zhu Yong-Guan,
Tong Yi-Ping,
Cai Chao, Kneer Ralf
Plant Physiology. 2005 138(1). p.461
A combined study on Vallisneria spiralis and lanthanum modified bentonite to immobilize arsenic in sediments
Yan Wenming,
He Xiangyu,
Wu Tingfeng,
Chen Musong,
Lin Juan,
Chen Xiang,
Li Qi,
Li Minjuan,
Yan Yulin, Yao Qi
Environmental Research. 2023 216 p.114689
Effects of arsenic on phosphorus content in different organs and chlorophyll fluorescence in primary leaves of soybean
Milivojevic D. B.,
Nikolic B. R., Drinic G.
Biologia plantarum. 2006 50(1). p.149
Role of Edaphic Factors in Accumulation and Chemical Speciation of Arsenic in Agricultural Food Produce
Seema Mishra ,
Geeta Singh ,
Sanjay Dwivedi , Kiran Singh
International Journal of Advanced Research in Science, Communication and Technology. 2021 p.213
Do arbuscular mycorrhizal fungi affect arsenic accumulation and speciation in rice with different radial oxygen loss?
Li H.,
Man Y.B.,
Ye Z.H.,
Wu C.,
Wu S.C., Wong M.H.
Journal of Hazardous Materials. 2013 262 p.1098
Multivariate analysis of elements in chinese brake fern as determined using neutron activation analysis
Wei Chao-Yang, Zhang Zhi-Yong
Biological Trace Element Research. 2007 115(3). p.277
EFFECTS OF NITROGEN AND PHOSPHORUS LEVELS, AND FROND-HARVESTING ON ABSORPTION, TRANSLOCATION AND ACCUMULATION OF ARSENIC BY CHINESE BRAKE FERN (PTERIS VITTATAL.)
Natarajan Seenivasan,
Stamps Robert H.,
Saha Uttam K., Ma Lena Q.
International Journal of Phytoremediation. 2009 11(4). p.313
Arabidopsis thaliana MRP1 (AtABCC1) nucleotide binding domain contributes to arsenic stress tolerance with serine triad phosphorylation
Raichaudhuri Ayan
Plant Physiology and Biochemistry. 2016 108 p.109
Determining the influence of the physicochemical parameters of urban soils on As availability using chemometric methods: A preliminary study
Waterlot Christophe,
Pelfrêne Aurélie, Douay Francis
Journal of Environmental Sciences. 2016 47 p.183
Distribution and bioaccumulation of arsenic and antimony in Dittrichia viscosa growing in mining-affected semiarid soils in southeast Spain
Pérez-Sirvent Carmen,
Martínez-Sánchez Maria J.,
Martínez-López Salvadora,
Bech Jaume, Bolan Nanthi
Journal of Geochemical Exploration. 2012 123 p.128
The uptake and detoxification of antimony by plants: A review
Feng Renwei,
Wei Chaoyang,
Tu Shuxin,
Ding Yongzhen,
Wang Ruigang, Guo Junkang
Environmental and Experimental Botany. 2013 96 p.28
Uptake Kinetics of Arsenic in Upland Rice Cultivar Zhonghan 221 Inoculated with Arbuscular Mycorrhizal Fungi
Chan W. F.,
Li W. C., Wong M. H.
International Journal of Phytoremediation. 2015 17(11). p.1073
Quantitative ion character-activity relationship methods for assessing the ecotoxicity of soil metal(loid)s to lettuce
Luo Xiaorong,
Wang Xuedong,
Xia Cunyan,
Peng Jing,
Wang Ying,
Tang Yujie, Gao Fan
Environmental Science and Pollution Research. 2022 30(9). p.24521
Arsenic in soil and vegetation of a contaminated area
Karimi N.,
Ghaderian S. M., Schat H.
International Journal of Environmental Science and Technology. 2013 10(4). p.743
Estimating Arsenic Mobility and Phytotoxicity Using Two Different Phosphorous Fertilizer Release Rates in Soil
Kim Min-Suk,
Min Hyun-Gi,
Kim Jeong-Gyu, Lee Sang-Ryong
Agronomy. 2019 9(3). p.111
Plants as Useful Vectors to Reduce Environmental Toxic Arsenic Content
Mirza Nosheen,
Mahmood Qaisar,
Maroof Shah Mohammad,
Pervez Arshid, Sultan Sikander
The Scientific World Journal. 2014 2014 p.1
Mechanisms of Arsenic Toxicity and Tolerance in Plants (2018)
Metals in Water (2023)
Arsenic hyperaccumulation by Pteris vittata from arsenic contaminated soils and the effect of liming and phosphate fertilisation
Caille N,
Swanwick S,
Zhao F.J, McGrath S.P
Environmental Pollution. 2004 132(1). p.113
Arsenic metabolism in cyanobacteria
Miyashita Shin-ichi,
Murota Chisato,
Kondo Keisuke,
Fujiwara Shoko, Tsuzuki Mikio
Environmental Chemistry. 2016 13(4). p.577
The role of arbuscular mycorrhizal fungi in plant uptake, fractions, and speciation of antimony
Wei Yuan,
Su Qing,
Sun ZaiJin,
Shen YaQin,
Li JiNing,
Zhu XiaoLong,
Hou Hong,
Chen ZhiPeng, Wu Feng Chang
Applied Soil Ecology. 2016 107 p.244
MIPs and Their Role in the Exchange of Metalloids (2010)
Aquatic arsenic: Phytoremediation using floating macrophytes
Rahman M. Azizur, Hasegawa H.
Chemosphere. 2011 83(5). p.633
Is the effect of silicon on rice uptake of arsenate (AsV) related to internal silicon concentrations, iron plaque and phosphate nutrition?
Guo W.,
Zhu Y.-G.,
Liu W.-J.,
Liang Y.-C.,
Geng C.-N., Wang S.-G.
Environmental Pollution. 2007 148(1). p.251
Mechanisms of Arsenic Toxicity and Tolerance in Plants (2018)
Food crop accumulation and bioavailability assessment for antimony (Sb) compared with arsenic (As) in contaminated soils
Wilson Susan C.,
Tighe Matthew,
Paterson Ewan, Ashley Paul M.
Environmental Science and Pollution Research. 2014 21(20). p.11671
Arsenic as a Food Chain Contaminant: Mechanisms of Plant Uptake and Metabolism and Mitigation Strategies
Zhao Fang-Jie,
McGrath Steve P., Meharg Andrew A.
Annual Review of Plant Biology. 2010 61(1). p.535
The Distribution of Arsenate and Arsenite in Shoots and Roots of Holcus lanatus is Influenced by Arsenic Tolerance and Arsenate and Phosphate Supply
Quaghebeur Mieke, Rengel Zdenko
Plant Physiology. 2003 132(3). p.1600
Effects of Arsenic on Nutrient Accumulation and Distribution in Selected Ornamental Plants
T. Reed Stewart,
Ayala-Silva Tomas,
B. Dunn Christopher, G. Gordon Garry
Agricultural Sciences. 2015 06(12). p.1513
Arsenate reductase activity in roots from the arsenic hyperaccumulatorPteris vittatautilizes both glutathione and dithiothreitol as reductants
Nagarajan V. K., Ebbs S. D.
Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology. 2010 144(4). p.857
Arbuscular mycorrhizal symbiosis influences arsenic accumulation and speciation in Medicago truncatula L. in arsenic-contaminated soil
Zhang Xin,
Ren Bai-Hui,
Wu Song-Lin,
Sun Yu-Qing,
Lin Ge, Chen Bao-Dong
Chemosphere. 2015 119 p.224
Crop Improvement Under Adverse Conditions (2013)
Metal tolerance in plants
Ernst W. H. O.,
Verkleij J. A. C., Schat H.
Acta Botanica Neerlandica. 1992 41(3). p.229
Silicon in Plants (2016)
Grain yield and arsenic uptake of upland rice inoculated with arbuscular mycorrhizal fungi in As-spiked soils
Wu Fuyong,
Hu Junli,
Wu Shengchun, Wong Ming Hung
Environmental Science and Pollution Research. 2015 22(12). p.8919
Uptake of weathered p,p′-DDE by plant species effective at accumulating soil elements
White Jason C.,
Parrish Zakia D.,
Isleyen Mehmet,
Gent Martin P.N.,
Iannucci-Berger William,
Eitzer Brian D., Mattina Mary Jane Incorvia
Microchemical Journal. 2005 81(1). p.148
A Critical Review of the Arsenic Uptake Mechanisms and Phytoremediation Potential ofPteris vittata
Danh Luu Thai,
Truong Paul,
Mammucari Raffaella, Foster Neil
International Journal of Phytoremediation. 2014 16(5). p.429
Comparison of Arsenic and Phosphate Uptake and Distribution in Arsenic Hyperaccumulating and Nonhyperaccumulating Fern
Tu S., Ma L. Q.
Journal of Plant Nutrition. 2005 27(7). p.1227
Multivariate analysis of elements in chinese brake fern as determined using neutron activation analysis
Wei Chao-Yang, Zhang Zhi-Yong
Biological Trace Element Research. 2007 115(3). p.277
Arsenic transformations in the soil–rhizosphere–plant system: fundamentals and potential application to phytoremediation
Fitz Walter J, Wenzel Walter W
Journal of Biotechnology. 2002 99(3). p.259
Heterologous Expression of Pteris vittata Phosphate Transporter PvPht1;3 Enhances Arsenic Translocation to and Accumulation in Tobacco Shoots
Cao Yue,
Feng Huayuan,
Sun Dan,
Xu Guohua,
Rathinasabapathi Bala,
Chen Yanshan, Ma Lena Q.
Environmental Science & Technology. 2019 53(18). p.10636
PHYTOREMEDIATION OF ARSENIC CONTAMINATED SOIL BYPTERIS VITTATAL. I. INFLUENCE OF PHOSPHATIC FERTILIZERS AND REPEATED HARVESTS
Mandal Asit,
Purakayastha T. J.,
Patra A. K., Sanyal S. K.
International Journal of Phytoremediation. 2012 14(10). p.978
Reviews of Environmental Contamination and Toxicology (1992)
Antimony toxicity in soils and plants, and mechanisms of its alleviation
Vidya Chirappurathu Sukumaran-Nair,
Shetty Rajpal,
Vaculíková Miroslava, Vaculík Marek
Environmental and Experimental Botany. 2022 202 p.104996
Arsenic phytoextraction and hyperaccumulation by fern species
Gonzaga Maria Isidoria Silva,
Santos Jorge Antonio Gonzaga, Ma Lena Qiying
Scientia Agricola. 2006 63(1). p.90
MIPs and Their Role in the Exchange of Metalloids (2010)
Arsenic in Plants (2022)
Phytoremediation (2016)
Timing of phosphate application affects arsenic phytoextraction by Pteris vittata L. of different ages
Santos Jorge A.G.,
Gonzaga Maria I.S.,
Ma Lena Q., Srivastava M.
Environmental Pollution. 2008 154(2). p.306
Arsenate uptake and translocation in seedlings of two genotypes of rice is affected by external phosphate concentrations
Geng Chun-Nu,
Zhu Yong-Guan,
Liu Wen-Ju, Smith Sally E.
Aquatic Botany. 2005 83(4). p.321
Bioprocess Engineering for Bioremediation (2020)
Antimony in the soil - plant system - a review
Tschan Martin,
Robinson Brett H., Schulin Rainer
Environmental Chemistry. 2009 6(2). p.106
Effects of arbuscular mycorrhiza and phosphorus application on arsenic toxicity in sunflower (Helianthus annuus L.) and on the transformation of arsenic in the rhizosphere
Ultra V. U.,
Tanaka S.,
Sakurai K., Iwasaki K.
Plant and Soil. 2007 290(1-2). p.29
Effect of external and internal phosphate status on arsenic toxicity and accumulation in rice seedlings
WANG Lihong, DUAN Guilan
Journal of Environmental Sciences. 2009 21(3). p.346
Phytoremediation assessment of Gomphrena globosa and Zinnia elegans grown in arsenic-contaminated hydroponic conditions as a safe and feasible alternative to be applied in arsenic-contaminated soils of the Bengal Delta
Signes-Pastor A. J.,
Munera-Picazo S.,
Burló F.,
Cano-Lamadrid M., Carbonell-Barrachina A. A.
Environmental Monitoring and Assessment. 2015 187(6).
Effect of phytosiderophores on 59Fe absorption and translocation in arsenic-induced chlorosis in rice and barley seedlings
Shaibur Molla Rahman
Journal of Plant Nutrition. 2021 44(12). p.1719
Arsenic in Plants (2022)
The potential of Thai indigenous plant species for the phytoremediation of arsenic contaminated land
Visoottiviseth P,
Francesconi K, Sridokchan W
Environmental Pollution. 2002 118(3). p.453
A different sequence of events than previously reported leads to arsenic-induced damage in Ceratophyllum demersum L.
Mishra Seema,
Stärk Hans-Joachim, Küpper Hendrik
Metallomics. 2014 6(3). p.444
Environmental Chemistry for a Sustainable World (2012)
Metalloids in plants: A systematic discussion beyond description
Parveen Nishat,
Berni Roberto,
Sudhakaran Sreeja,
Bhat Javaid A.,
Shinde Suhas,
Ramawat Naleeni,
Singh Vijay P.,
Sahi Shivendra,
Deshmukh Rupesh,
Chauhan Devendra K., Tripathi Durgesh Kumar
Annals of Applied Biology. 2022 180(1). p.7
